Research Revolution

It's a smart new world, and Michigan Tech students have the life saving, game-changing
technology-shaping ideas to propel us forward. Viva la research revolution.

Infrastructure

Dynamic Environment

Technology

Worlds Beyond

Health

Infrastructure

Removing Synthetic Chemicals

Student: Jennifer JulienHuman waste is chock full of pharmaceuticals, and Julien is looking for the cleanest
way to take them out and improve wastewater treatment.

Retrofitting a Rail Shunt

Students: Samuel Scott, Frank BeFay, Sean Massey, Alexander PateRetrofits are never ideal, but they are necessary to improve the safety of modern
American railways. Better understanding the electrical properties of shunt connection
systems is one step forward.

Swapping Aluminum

Students: Annie LeSage, Alexandra Glover, Kyle Myszka, Jacob GerdtCars are heavy, so some auto companies are changing over copper wiring harnesses to
aluminum alloys to make them lighter. A Senior Design team in Materials Science and
Engineering worked with Yazaki to test this swap.

Plugging Into Smart Grids

Students: Jaya Yellajosula, Elizaveta Egorova, Zagros Shahooei, Gabriel Sousa, Matheus
Freitas, Junior CastroDo you think about how electricity gets to your light switch when you flip it on?
The students in Bruce Mork’s and Sumit Paudyal’s power grid lab do. In fact, these
students working in the Power and Energy Resource Center (PERC) plug into control
consoles, test live transformers, and seek out internal faults. The faster a fault
is detected, Egorova says, the less damage to a transformer will be inflicted. As
our utility infrastructure ages, fails, improves, and changes, these students will
help figure out how to smartly power the world.

Gathering Around Geothermal

Students: Edward Louie and the Alternative Energy EnterpriseMining is an important part of the Keweenaw’s history. Now, an interdisciplinary team
of more than ten students is looking at how to tap into minewater reservoir for geothermal
heating and cooling.

Building Underwater Robots to Monitor Pipelines

Students: Levi Rhody, Buck Poszywak

Preventing Bird-Window Collisions

Students: Michigan Tech Chapter of the Wildlife Society

Connecting People and Geohazards

Students: Geoscience students in the Peace Corps Master’s International Program

Designing a Better Car Console

Students: Humane Interface Design

Dynamic Environment

Warming Up Roots

Student: Peter HochTree roots are sensitive to small changes in temperature. Hoch studies how rising
temps impact sugar maple roots, microbial activity, and the nutrients bound up in
the soil.

Interpreting Data Into Sound

Students: Tom Conran, Paul Kirby, Collin Doerr-Newton, Mason PewSound design isn’t just for movies. These students interpreted wolf population data
from Isle Royale and turned it into interactive audio.

Understanding the Decrease in the UP's Hunting and Fishing

Student: Chris Henderson

Neutralizing the Campus Carbon Footprint

Students: Green Campus Enterprise

Preventing Bird-Window Collisions

Students: Michigan Tech Chapter of the Wildlife Society

Tracking Macrophytes and Stamp Sands in the Keweenaw Waterway

Student: Ryan Van Goethem

Figuring Out the Impacts of Extra Nitrogen on Plants and Pollinators

Student: Virginia Van Vianen

Technology

Polymerizing Fish Scales

Student: Xu XiangFinding ways to deliver pharmaceutical drugs using new materials is an everyday task
for Xiang, who modified fish scales using polymers to better understand their nanomechanical
properties.

Delivering A Dynamo

Students: Kristopher Benaglio, Christopher DeGroot, Adam Deibler, Kenneth SmithCalibrating a dynometer is an essential part of many mechanical engineering tests.
This Senior Design team hammered out a design for John Deere to make the device more
transportable, expanding the testing range.

Programming The Mind Music Machine

Students: Steven Landry, Paul Kirby, Joseph RyanTeaching a machine to learn is tricky. Teaching a machine to read human emotions is
even harder. But that’s what these interdisciplinary computer science and cognitive
science students do.

Coloring Emotions

Student: Zhine KangAs technology gets smarter, we hope to tune it into our emotions. Kang is toying with
how to make a room’s color change based on physical mood indicators like blood pressure
and breathing rate.

Interpreting Data Into Sound

Students: Tom Conran, Paul Kirby, Collin Doerr-Newton, Mason PewSound design isn’t just for movies. These students interpreted wolf population data
from Isle Royale and turned it into interactive audio.

Teasing Apart The Properties Of Titanium Dioxide Nanocomposites

Student: Kevin Rocheleau

Protecting Computer Test Data With A Buffer Box

Students: Sylvia Ferragut, Caleb Wright, Ben Veltman, Matthew Zawisza

Building Underwater Robots To Monitor Pipelines

Students: Levi Rhody, Buck Poszywak

Making Science Fun

Students: Mind Trekkers student volunteers

Playing Music With Heat On Carbon Nanotube Speakers

Students: Troy Bouman, Mahsa Asgarisabet

Sorting Out Smart Bins For Kimberly-Clark

Students: Louis Bersine, Jake Fiebing, Yuancheng He, Kaiquan Wang

Worlds Beyond

Compiling Geospatial Data Above And Below Water

Students: Digital Mapping Enterprise

Making Science Fun

Students: Mind Trekkers student volunteers

Blasting Off Satellites

Students: Andrew Conley and the Aerospace EnterpriseIn 2016, more than 60 Michigan Tech students will help send the Oculus-ASR Nanosatellite
into orbit. The team leads the nation’s winning project in the Air Force Research
Laboratory’s University Nanosatellite competition. Once in orbit, the Oculus-ARS will
complete a one-year nominal mission—completely controlled from the Michigan Tech campus.
Brad King advises the enterprise and admits that while the project is huge, the efforts
of Conley and his crew are taking undergraduate education to new heights.

Health

Discovering Macromolecules

Students: Melanie Talaga, Ni Fan, Ashli Fueri, Robert Brown, Kevin Lawry, Ramandeep
Rekhi, Alexander VizurragaLysins are the jackhammers of the microscopic world. These heavy-duty macromolecules—usually
proteins or peptides—punch holes in living cells, killing them. We use them in our
guts to destroy unwanted bacteria. Some fungi and invertebrates make them, but bacteria
are the main source of lysins. Now, Researcher Tarun Dam and his students in the chemistry
department have found a new source of lysins. Surprisingly, they’re in plants. Having
a better understanding of these macromolecules could pave the way for improved disease
and cancer treatments.

Polymerizing Fish Scales

Student: Xu XiangFinding ways to deliver pharmaceutical drugs using new materials is an everyday better
understand their nanomechanical properties.

Clearing Blood Clots With 3-D Printing

Michigan Technological University is a public research university, home to more than
7,000 students from 54 countries. Founded in 1885, the University offers more than
120 undergraduate and graduate degree programs in science and technology, engineering,
forestry, business and economics, health professions, humanities, mathematics, and
social sciences. Our campus in Michigan’s Upper Peninsula overlooks the Keweenaw Waterway
and is just a few miles from Lake Superior.